METHOD AND DEVICE FOR MONITORING A HUMIDITY SENSOR IN A COMBUSTION ENGINE, USING OXYGEN MEASUREMENT OF OTHER SENSORS IN THE ENGINE, SUCH AS NOX, LAMBDA AND/OR OXYGEN SENSORS
The present invention provides for a method and device for monitoring an ambient humidity sensor in a combustion engine, where the monitoring of the ambient humidity sensor is made by comparing the ambient humidity measured by said humidity sensor and an ambient humidity determined from an oxygen measurement of at least another sensor in the engine system, such as a NOX, or Lambda and/or an oxygen sensor. Said comparison is made using an offset of the oxygen signal reading of said at least another sensor, in a fuel cut condition where the drift or offset of said another sensor is related to the variation of the ambient humidity.
The present invention relates to a method and device for monitoring a humidity sensor in a combustion engine, using oxygen measurement of other sensors in the engine, such as NOx, lambda and/or oxygen sensor.
DESCRIPTION OF THE PRIOR ARTThe NOx emissions of an internal combustion engine are significantly influenced by the humidity of the ambient air. For example in central Europe, variations of the ambient humidity between summer and winter may lead to variations of the NOx emissions of up to 20%.
Therefore, a sensor can be used in order to correct for the influence of the ambient humidity in concepts, where the raw NOx emissions are calculated instead of using an NOx sensor. The relative or absolute humidity of the ambient air is measured with a humidity sensor, in order to be able to accurately predict the NOx emissions of the engine. This renders the humidity sensor an emission relevant component, hence it has to be monitored and checked against an independent calculation/sensor, as the emission regulations and legislation impose the monitoring of all components which have an influence on the emissions.
Generally a sensor monitoring is established using redundant information from two or more independent sources such as measurements and/or models, the reading of which can be checked against each other. However the monitoring of an ambient humidity sensor is particularly difficult, because no obvious device can be used for a redundant determination of the ambient humidity.
In the case of NOx emissions, the comparison of the calculated NOx emissions against measured ones is mandatory, if only one NOx sensor is used in the exhaust gas line. This comparison is necessary to monitor the reliability of the NOx sensor reading. However the humidity sensor cannot be monitored simultaneously and independently this way. In addition the use of more than one humidity sensor is obviously costly and therefore should be avoided.
A possible solution for checking the ambient humidity should be the use of more than one NOx sensor. However, in this case, the use of an ambient humidity sensor is not necessary anymore.
SUMMARY OF THE INVENTIONTherefore it is the main object of the present invention to provide a method and device for monitoring a humidity sensor in a combustion engine, which overcomes the above problems/drawbacks.
The basic idea of the invention is the monitoring of an ambient humidity sensor in a combustion engine by determination of the ambient humidity from the oxygen measurement of other sensors in the engine, such as NOx, lambda and/or oxygen sensor.
These and further objects are achieved by means of a method and device for monitoring a humidity sensor in a combustion engine, using oxygen measurement of other sensors in the engine, such as NOx, lambda and/or oxygen sensors, as described in the attached claims, which form an integral part of the present description.
The invention will become fully clear from the following detailed description, given by way of a mere exemplifying and non limiting example, to be read with reference to the attached drawing figures, wherein:
The main influence of the ambient humidity on the NOx emissions actually reflects the decreasing availability of oxygen in case of increasing humidity. In other words, the oxygen concentration in the ambient air decreases with increasing humidity. Therefore, the local flame temperature decreases in the cylinder, which eventually leads to lower NOx emissions.
In many engine management systems, NOx, lambda or oxygen sensors are used in the exhaust of the engines. During fuel cut-off phases, i.e., when the fuel injection is shut off, for example when the vehicle is driving downhill, lambda and/or oxygen sensors measure the oxygen concentration of the ambient air. This oxygen concentration is obviously dependent on the ambient humidity.
Therefore, in summary, the NOx, lambda or oxygen sensor provides an independent information about the level of the ambient humidity, which can be used to monitor the reliability of the ambient humidity signal.
More particularly, in many engine management systems, the use of an NOx sensor is mandatory in order to ensure the persistent operation below the NOx emission limits imposed by the legislation.
For after-treatment systems such as SCR (selective catalytic reduction) catalysts or LNT (lean NOx traps), not only the knowledge of the tailpipe NOx concentration, but also of the NOx concentration upstream of the system is crucial. This concentration can be obtained using a second NOx sensor, or it can be calculated using sensor information of the engine, such as pressures, temperatures, fuel quantity, engine speed, etc. Additionally, the ambient humidity is a crucial quantity, because it significantly influences the NOx emissions. Increasing ambient humidity leads to decreasing NOx emissions. The reason is the reduced relative oxygen concentration with higher ambient humidity, which leads to lower local flame temperatures in the combustion cycle.
In particular, when only one NOx sensor is used downstream of an after-treatment device and additionally the calculation of the NOx concentration upstream is performed, the two can be compared during phases of catalyst deactivation in order to monitor the accuracy of the NOx sensor. However, since the calculation of the NOx emissions directly depends on the reading of the humidity sensor, an independent monitoring of the humidity sensor is required.
As said above, NOx, Lambda or oxygen sensors are widely used in combustion engines in the exhaust gas line or even in the air intake region. Additionally, certain sensors such as NOx sensors also provide a lambda and/or oxygen signal. Therefore the monitoring of the ambient humidity sensor can be made by determination of the ambient humidity deriving from the oxygen measurement of other sensors in the engine, such as those NOx, Lambda or oxygen sensors.
For the purpose of the present invention, the position of the NOx, lambda or oxygen measurement device can be anywhere in the exhaust or intake system of the engine, even downstream of the after-treatment system, if any.
Other configurations of the engine system are possible, for example without EGR system, or with a two-stage turbine, with or without after-treatment system, etc . . .
A humidity sensor 7 can be placed at the input of the compressor 6 or at the intake pipe 1.
One or more oxygen or lambda or NOx sensors 8 can be placed at the output pipes of the EGR cooler 3 (if present) or intercooler 2, or at the output of the turbine 5, or anywhere downstream of the turbine, i.e. upstream and downstream of any device (catalyst, filter, etc.) in the after-treatment system.
If a two-stage turbine is present, the Oxygen or lambda sensor can be placed in between the two turbines, or at the output of the two-stage turbine.
Since the ambient humidity is inversely proportional to the ambient oxygen concentration, the reading of the oxygen measurement of the NOx, lambda or oxygen sensor reflects the ambient humidity. However, this effect is only visible within a small range of values and with an accurate calibration of the oxygen sensor, which render the operation difficult.
For example, the ambient humidity in Europe varies between approximately 1 and 20 g/kg. This corresponds to a concentration of water in the ambient air of approximately 0.16% to 3.2%. Since the oxygen/nitrogen ratio of air is approximately 20/80, this results in an oxygen concentration variation of approximately 0.032% to 0.67%.
Therefore, a well-defined condition is necessary, where variations in the oxygen measurement can be determined, which corresponds to the ambient humidity, namely a known, well-defined condition, where the drift or offset of the lambda/NOx/oxygen sensor can be related to the variation of the ambient humidity.
A possible non-limiting example is to use the condition of fuel cut-off. During this phase, mostly air is present in the exhaust line. Under these conditions, the oxygen measurement of the NOx, lambda or oxygen sensor signal is slowly adjusted such that it corresponds to a well-defined oxygen concentration, e.g. 20.9%, which is the oxygen concentration of air, if dry air is assumed as the reference.
The offset, which results from this adaptation, is dominantly dependent on the ambient humidity. Therefore, the validity of the humidity signal can be monitored using the offset of an adaptation algorithm.
With reference to
The oxygen measured value at the output of a lambda or NOx or oxygen sensor 8 is eventually corrected and filtered in a block 20 according to sensor or model information 21 depending on specific conditions in the engine, such as fuel quantity, air quantity, gas pressure, engine speed, temperature, . . . etc.
The eventually corrected or filtered value is taken in the condition of fuel injection cut-off (or any other well-defined operating condition, where the influence of the ambient humidity can be extracted) through a controller 22 of the cut-off condition 23, and is brought to a control block 24 for limiting the range of values to the output, which loops backwards to the other input of the cut-off controller, for conditions out of the cut-off. The output of the control block is checked (25) for difference with respect to a reference oxygen value set-up 26 for output of the sensor in the cut-off condition: the difference is converted (27) into a value of calculated humidity which is compared (28) with the humidity value measured by the humidity sensor 7. The difference, with or without threshold, gives the offset which can be used for issuing a warning or error signal 29.
The above described method for the determination of the ambient humidity is completely independent from the humidity sensor and therefore acceptable for monitoring purposes.
The processing of the validity of the humidity signal can be advantageously implemented in an ECU (Electronic Control Unit) of the engine.
Therefore this invention can be implemented advantageously in a computer program comprising program code means for performing one or more steps of such method, when such program is run on a computer. For this reason the patent shall also cover such computer program and the computer-readable medium that comprises a recorded message, such computer-readable medium comprising the program code means for performing one or more steps of such method, when such program is run on a computer.
Many changes, modifications, variations and other uses and applications of the subject invention will become apparent to those skilled in the art after considering the specification and the accompanying drawings which disclose preferred embodiments thereof. All such changes, modifications, variations and other uses and applications which do not depart from the spirit and scope of the invention are deemed to be covered by this invention.
Further implementation details will not be described, as the man skilled in the art is able to carry out the invention starting from the teaching of the above description.
Claims
1. Method for monitoring a humidity sensor in a combustion engine system, comprising a step of comparing an ambient humidity measured by said humidity sensor and an ambient humidity determined from an oxygen measurement of at least another sensor in the engine system.
2. Method as in claim 1, wherein said comparison is made using an offset of the oxygen signal reading of said at least another sensor, in a condition where the drift or offset of said another sensor is related to the variation of the ambient humidity.
3. Method as in claim 2, wherein said condition is of fuel cut-off in the engine system.
4. Method as in claim 1, wherein said at least another sensor comprises a NOX, or Lambda and/or an oxygen sensor.
5. Method as in claim 1, wherein before said step of comparison, said ambient humidity determined from an oxygen measurement is corrected and filtered according to sensor information depending on specific conditions in the engine, such as fuel quantity, air quantity, gas pressure, engine speed, temperature.
6. Device for monitoring a humidity sensor in a combustion engine system, said engine system comprising said humidity sensor, an intake system and an exhaust system, and at least another sensor measuring oxygen in said intake system or in said exhaust system, said device comprising means for the implementation of the method of any of the preceding claims.
7. Device as in claim 6, wherein said intake system (1) is connected to the output of an intercooler (2) and said exhaust system (4) is connected to the input of at least one turbine (5), said humidity sensor (7) being placed at the input of the compressor or at the intake pipe (1), said at least another sensor being placed at the output of the intercooler (2), or at the intake (1), or at the output of the at least one turbine (5), said device comprising means for the implementation of the method of claim 1 or 2 or 3.
8. Device as in claim 7, wherein said engine system comprises an EGR cooler (3) between the exhaust pipe (4) and the intake pipe (1) and the output of the intercooler (2), said at least another sensor being placed at the output of the EGR cooler, or at the output of the intercooler (2), or at the intake (1), or at the output of the at least one turbine (5).
9. Device as in claim 7, wherein said at least one turbine (5) is a two-stage turbine.
10. Device as in claim 6, wherein said at least another sensor comprises a NOX, or Lambda and/or an oxygen sensor.
11. (canceled)
12. (canceled)
Type: Application
Filed: May 5, 2011
Publication Date: May 16, 2013
Patent Grant number: 9772273
Applicant: FPT MOTORENFORSCHLUNG AG (ARBON)
Inventors: Theophil Auckenthaler (St. Gallen), Werner Zaehner (Rehetobel)
Application Number: 13/261,495